Abstract
BackgroundIn-feed antibiotics are being phased out in livestock production worldwide. Alternatives to antibiotics are urgently needed to maintain animal health and production performance. Host defense peptides (HDPs) are known for their broad-spectrum antimicrobial and immunomodulatory capabilities. Enhancing the synthesis of endogenous HDPs represents a promising antibiotic alternative strategy to disease control and prevention.MethodsTo identify natural products with an ability to stimulate the synthesis of endogenous HDPs, we performed a high-throughput screening of 1261 natural products using a newly-established stable luciferase reporter cell line known as IPEC-J2/pBD3-luc. The ability of the hit compounds to induce HDP genes in porcine IPEC-J2 intestinal epithelial cells, 3D4/31 macrophages, and jejunal explants were verified using RT-qPCR. Augmentation of the antibacterial activity of porcine 3D4/31 macrophages against a Gram-negative bacterium (enterotoxigenic E. coli) and a Gram-positive bacterium (Staphylococcus aureus) were further confirmed with four selected HDP-inducing compounds.ResultsA total of 48 natural products with a minimum Z-score of 2.0 were identified after high-throughput screening, with 21 compounds giving at least 2-fold increase in luciferase activity in a follow-up dose-response experiment. Xanthohumol and deoxyshikonin were further found to be the most potent in inducing pBD3 mRNA expression, showing a minimum 10-fold increase in IPEC-J2, 3D4/31 cells, and jejunal explants. Other compounds such as isorhapontigenin and calycosin also enhanced pBD3 mRNA expression by at least 10-fold in both IPEC-J2 cells and jejunal explants, but not 3D4/31 cells. In addition to pBD3, other porcine HDP genes such as pBD2, PG1-5, and pEP2C were induced to different magnitudes by xanthohumol, deoxyshikonin, isorhapontigenin, and calycosin, although clear gene- and cell type-specific patterns of regulation were observed. Desirably, these four compounds had a minimum effect on the expression of several representative inflammatory cytokine genes. Furthermore, when used at HDP-inducing concentrations, these compounds showed no obvious direct antibacterial activity, but significantly augmented the antibacterial activity of 3D4/31 macrophages (P < 0.05) against both Gram-negative and Gram-positive bacteria.ConclusionsOur results indicate that these newly-identified natural HDP-inducing compounds have the potential to be developed as novel alternatives to antibiotics for prophylactic and therapeutic treatment of infectious diseases in livestock production.
Highlights
Weaning piglets encounter multiple stressors that render them more vulnerable to gastrointestinal infections, manifesting mainly as diarrhea, which severely endangers their health and growth performance [1]
Our results indicate that these newly-identified natural Host defense peptides (HDP)-inducing compounds have the potential to be developed as novel alternatives to antibiotics for prophylactic and therapeutic treatment of infectious diseases in livestock production
We identified a number of hit compounds, which were further validated for their ability to induce multiple HDP genes in different porcine cell lines and primary intestinal explants
Summary
Weaning piglets encounter multiple stressors that render them more vulnerable to gastrointestinal infections, manifesting mainly as diarrhea, which severely endangers their health and growth performance [1]. Antibiotics have been used routinely for growth promotion and infection prevention in the swine industry. Such a practice has been linked to the development of antimicrobial resistance in humans. Alternative antimicrobial strategies are urgently needed to ensure the health of livestock animals including piglets. Host defense peptides (HDPs) are antimicrobial peptides that are produced mainly by various epithelial and phagocytic cells [2, 3]. Synthetic HDPs have been developed as feed additives to promote growth performance, nutrient digestion, and intestinal health [4, 5]. Alternatives to antibiotics are urgently needed to maintain animal health and production performance. Enhancing the synthesis of endogenous HDPs represents a promising antibiotic alternative strategy to disease control and prevention
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